UMLS:C1762617 - FACTA Search

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Query: UMLS:C1762617 (weakness)
37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amyotrophic lateral sclerosis (ALS) denotes a heterogeneous group of neurodegenerative disorders affecting upper and lower motor neurons. ALS4 is a juvenile-onset, autosomal dominant form of ALS that is characterized by slow progression, distal limb weakness and amyotrophy, and pyramidal signs associated with severe loss of motor neurons in the brain and spinal cord. The ALS4 locus was recently mapped by linkage analysis to a large genetic interval on chromosome 9q34. By undertaking extensive genetic linkage analysis, we have significantly refined the ALS4 locus to a critical interval of less than 3 cM, flanked by D9S149 and D9S1198. Previous physical mapping in this region has indicated that this critical interval spans approximately 500 kb. Seventeen putative transcripts have been localized within this interval including 7 characterized genes, 2 partially characterized genes, and 8 "anonymous" expressed sequence tags . These are therefore positional candidate genes for the ALS4 locus. We have also undertaken mutation analysis and genetic mapping to investigate and exclude candidate genes, including RING3L/ORFX and RALGDS, from a pathogenic role in ALS4.
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PMID:A gene for autosomal dominant juvenile amyotrophic lateral sclerosis (ALS4) localizes to a 500-kb interval on chromosome 9q34. 1108 90

Autosomal dominant juvenile amyotrophic lateral sclerosis (ALS) is a rare disorder and so far only one family has been reported. Genetic linkage studies mapped the disease locus to chromosome 9q34 (ALS4). The diagnosis of ALS in this family is based on the clinical signs with almost exclusively lower motor neurone pathology in combination with less prominent pyramidal tract signs. Atypical features include normal life expectancy, the absence of bulbar involvement and the symmetrical distal distribution of atrophy and weakness. We performed a molecular genetic study in three families that we had diagnosed as having distal hereditary motor neuronopathy, i.e. distal spinal muscular atrophy or spinal Charcot-Marie-Tooth syndrome, and found linkage to the ALS4 locus. The clinical phenotype in these three families, of different geographic origin (Austria, Belgium and England), is strikingly similar to the autosomal dominant juvenile ALS family except for a younger onset age in two of the distal hereditary motor neuronopathy families. These data suggest that ALS4 and distal hereditary motor neuronopathy with pyramidal tract signs may be one and the same disorder.
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PMID:Autosomal dominant juvenile amyotrophic lateral sclerosis and distal hereditary motor neuronopathy with pyramidal tract signs: synonyms for the same disorder? 1202 20

To determine whether Charcot-Marie-Tooth (CMT) with pyramidal features is genetically distinct from other dominantly inherited axonal neuropathies, the authors examined all chromosomal loci and genes for axonal CMT. Two families were identified with an axonal CMT phenotype with distal wasting, weakness, pes cavus, sensory loss, and mild pyramidal signs (including extensor plantar responses, mild increase in tone, and preserved or increased reflexes but no spastic gait). Linkage studies excluded CMT2A, 2B, 2D, 2E, and 2F; ALS4; and HMN2. There were no mutations in the PMP22, MPZ/Po, or EGR2 genes.
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PMID:CMT with pyramidal features. Charcot-Marie-Tooth. 1260 Nov 14

Juvenile amyotrophic lateral sclerosis (ALS4) is a rare autosomal dominant form of juvenile amyotrophic lateral sclerosis (ALS) characterized by distal muscle weakness and atrophy, normal sensation, and pyramidal signs. Individuals affected with ALS4 usually have an onset of symptoms at age <25 years, a slow rate of progression, and a normal life span. The ALS4 locus maps to a 1.7-Mb interval on chromosome 9q34 flanked by D9S64 and D9S1198. To identify the molecular basis of ALS4, we tested 19 genes within the ALS4 interval and detected missense mutations (T3I, L389S, and R2136H) in the Senataxin gene (SETX). The SETX gene encodes a novel 302.8-kD protein. Although its function remains unknown, SETX contains a DNA/RNA helicase domain with strong homology to human RENT1 and IGHMBP2, two genes encoding proteins known to have roles in RNA processing. These observations of ALS4 suggest that mutations in SETX may cause neuronal degeneration through dysfunction of the helicase activity or other steps in RNA processing.
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PMID:DNA/RNA helicase gene mutations in a form of juvenile amyotrophic lateral sclerosis (ALS4). 1510 21

Several forms of genetically defined juvenile amy-otrophic lateral sclerosis (ALS) have now been charac-terized and discussion of these conditions will form the basis for this chapter. ALS2 is an autosomal recessive form of ALS with a juvenile onset and very slow progression that mapped to chromosome 2q33. Nine different mutations have been identified in the ALS2 gene that result in premature stop codons, suggesting a loss of function in the gene product, alsin. The alsin protein is thought to function as a guanine-nucleotide exchange factor for GTPases and may play a role in vesicle transport or membrane trafficking processes. ALS4 is an autosomal dominant form of juvenile onset ALS associated with slow progression, severe muscle weakness and pyramidal signs, in the absence of bulbar and sensory abnormalities. Mutations in the SETX gene cause ALS4, and the SETX gene product senataxin may have DNA and RNA helicase activity and play a role in the regulation of RNA and/or DNA in the cell. A third form of juvenile-onset ALS (ALS5) is associated with slowly progressing lower motor neuron signs (weak-ness and atrophy) initially of the hands and feet, with eventual bulbar involvement. Progressive upper motor neuron disease becomes more obvious with time. ALS5 has been linked to a 6 cM region of chromosome 15q15.1-q21.1, but the causative gene mutation for ALS5 has yet to be identified. The high degree of clin-ical and genetic heterogeneity in the various forms of juvenile ALS can make differential diagnosis difficult, other genetic disorders that must be considered include: spinal muscular atrophy, hereditary spastic paraplegia, SBMA, GM2 gangliosidosis and the hereditary motor neuronopathies/motor forms of Charcot-Marie-Tooth disease. Acquired disorders that must also be consid-ered include heavy metal intoxications (especially lead), multifocal motor neuropathy, paraneoplastic syndromes, vitamin deficiencies (B12) and infections (HTLV-II, HIV and poliomyelitis).
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PMID:Chapter 15 Juvenile amyotrophic lateral sclerosis. 1880

Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease characterized by progressive muscle weakness that reflects degeneration of motor neurons in the primary motor cortex, corticospinal tracts, brainstem, and spinal cord. Most ALS cases are sporadic, but about 5%-10% are familial. The majority of familial ALS (FALS) cases follow an autosomal dominant inheritance pattern, and include the following mutations: ALS1, Cu/Zn superoxide dismutase (SOD1); ALS3; ALS4, senataxin; ALS6, fused in sarcoma (FUS); ALS7; ALS8, vesicle-associated membrane protein; ALS9, angiogenin; ALS10, TAR DNA-binding protein (TARDBP); and ALS11/FIG4. Some of these gene mutations are rarely seen in sporadic ALS cases. ALS2/alsin and ALS5 show an autosomal recessive inheritance pattern. Recently, mutations in the gene encoding optineurin, earlier reported to be a causative gene for primary open-angle glaucoma, have also been found in patients with ALS. It has also been demonstrated that a mutation in the D-amino acid oxidase gene is associated with classic adult-onset FALS. However, these genetic defects occur in only about 20%-30% FLAS cases, while most genes causing FALS remain unknown.
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PMID:[Gene mutations in familial amyotrophic lateral sclerosis]. 2130 Oct 41

Autosomal dominant proximal spinal muscular atrophy (ADSMA) is a rare disorder with unknown gene defects in the majority of families. Here we describe a family where the diagnosis of juvenile and adult onset ADSMA was made in three individuals. Because of retained tendon reflexes an atypical course of juvenile amyotrophic lateral sclerosis (ALS4) was considered. SETX gene sequencing revealed the previously reported heterozygous missense mutation c.1166T<C, L389S in the patients. Moreover the index patient and his sister had an earlier age at onset (10 and 15 years) and a more pronounced weakness as compared to their father with an age at onset of 35 years. Both sibs additionally carried a second SETX missense mutation of unknown function V891A in trans. Altogether these results expand the phenotype associated with SETX mutations supporting the notion that patients with ADSMA should be investigated for SETX mutations.
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PMID:SETX gene mutation in a family diagnosed autosomal dominant proximal spinal muscular atrophy. 2208 87

We report a 44 years old man with slowly progressive muscular atrophy of the extremities for over 30 years. He experienced difficulty in walking in his 10's and was diagnosed as hereditary spastic paraplegia (HSP) in his 20's. And then, muscle atrophy of the extremities slowly progressed especially in his distal muscles. Sensory axonal neuropathy was detected with sural nerve biopsy. His father and uncle have been diagnosed as HSP in their early days. His father noticed weakness of his leg in his 20's. He lost motor function of the leg in his 60's. In addition, marked disturbance of thermal sensation, vibration, and sense of position were found by physical examination. Our genetic study detected senataxin (SETX) gene mutation (c.8C>T,p.T3I) in the blood of those two patients, and they had been identified as family cases of amyotrophic lateral sclerosis (ALS) 4. As clinical symptoms of ALS4 would be similar to those of HSP at the onset, we suggest considering ALS4 in seeing patients with HSP without gene diagnosis.
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PMID:[A amyotrophic lateral sclerosis (ALS) 4 family misdiagnosed as hereditary spastic paraplegia-a case report]. 2907 Jul 49